Flagpole illumination device
An illumination device having a pole mount, a light support that extends from the pole mount, a lighting unit is connected to the pole mount, and a solar panel assembly is mounted to the lighting unit. The pole mount is adapted to be fitted to poles having different diameters. In another embodiment an illumination apparatus is provided having a pole mount and a lighting assembly, and the pole mount has a first clamp half and a second clamp half. A hinge joins the first half and the second clamp half together and the first clamp half and the second clamp half are movable from an open clamp position to a closed clamp position. When in the closed clamp position the pole mount clamp defines a pole opening. A first light support extends from the first clamp half and a light emitting assembly is supported by the first light support.
This application claims the benefit of U.S. Provisional Patent Application 61/671,154 filed on Jul. 13, 2012 and claims the benefit of U.S. Provisional Patent Application 61/710,044 filed on Oct. 5, 2012 and the contents and disclosures of each are hereby incorporated herein by reference.
BACKGROUNDMany houses, businesses and governmental offices display the American flag. Oftentimes it is desirable to fly the flag during the nighttime hours. Of course, flag etiquette demands that when the American flag is flown during the nighttime hours it is to be properly illuminated. Presently, nighttime illumination of the flag is accomplished by mounting lights on the ground or nearby structures or buildings. One of the problems with keeping with proper flag etiquette is that the lights must be on during the entire night and this is expensive because of the amount of electrical power consumed. Indeed, some flag illumination systems are for only a limited amount of time and actually are turned off during a portion of the night to conserve on power costs.
In addition, homeowners and businesses have a need to provide lighting on their grounds, but do not want to expend the time and funds to have professionals, for example electricians, install the lighting, wiring and lighting fixtures.
Thus, there is a need for lighting device that is inexpensive and reliable, and capable of being installed by the homeowner or business, such that grounds (backyards, parking lots, buildings) or the American flag can be illuminated at nighttime.
SUMMARYAn illumination device is provided having a pole mount with a light support extending from the pole mount and a lighting unit is connected to the pole mount. A solar panel assembly is mounted to the lighting unit wherein the pole mount is adapted to be fitted to poles having different diameters. The lighting unit is rotatable relative to the light support and pole mount, and the solar panel assembly is rotatable relative to the lighting unit.
In another preferred embodiment an illumination apparatus having a pole mount clamp and a lighting assembly is provided. The pole mount clamp has a first clamp half and a second clamp half. A hinge joins the first half and the second clamp half together, and the first clamp half and the second clamp half are movable toward and away from one another to an open clamp position and to a closed clamp position. When in the closed clamp position the pole mount clamp defines a pole opening. A first light support extends from the first clamp half, and second and a third light supports extend from the second clamp half. A light emitting assembly is supported by each of the first, second and third light supports. The light emitting assembly includes a solar panel and a rechargeable battery pack and includes a light emitting diode component having at least one light emitting diode, and the light emitting diode component is capable of being powered by the rechargeable battery pack.
In another preferred embodiment there is a supported illumination device wherein an arm mount is provided that is capable of supporting the lighting assembly from a flat surface, for example a wall, a tree or a floor of a building.
In another preferred embodiment a spike supported illumination device having a ground spike and the ground spike has a spike insertion portion and an opposed spike portion. An extension member is provided and is adapted to receive the spike insertion portion and an arm insertion portion of the lighting assembly such that the light emitting assembly is elevated with respect to the surround ground. For even more elevation of the lighting assembly the extension members are used with connector members that hold the extension members together. The connector members and extension members can also be used in connection with the lighting assembly and the pole mount clamp such that the lighting assembly is spaced a distance away from the pole mount. This provides the user with the option of support the lighting assembly a distance away from the pole such to provide different types of lighting arrangements.
As shown in
The surrounding sidewall 15 has an interior pole mount surface 16 and an opposed exterior pole mount surface 18, and opposed first and second pole mount ends 20, 22. The facing first and second gap edges 24, 26 define a gap space 27 designated G1 in the surrounding sidewall 15 when the pole mount 14 is in an unexpanded position 17 (shown in
As mentioned, the surrounding sidewall 15 of the pole mount 14 is flexible and thus the gap space 27, as measure from the first gap edge 24 to the second gap edge 26, can be manually increased. That is, the distance from the first gap edge 24 to the second gap edge 26 can be increased manually (as indicated by arrow A in
After having been fitted on the pole 100 the pole mount 14 returns to its unexpanded position 17. As shown in
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The light support 40 is attached to the pole mount 14 by installing the previously described bolt 36 through the bolt openings 34. Then the contoured end 43 of the light support is abutted against the pole mount 14 in the manner previously described. The bolt 36 is then threaded to the nut 50 and tightened thus securing the light support 40 to the pole mount 14.
The illumination device 10 also includes a lighting unit 56. In particular, as shown in
In addition, in one of the preferred embodiments the lighting assembly 57 includes a light emitting diode (hereinafter LED) 62 for producing light. The lighting assembly 57 can have three LED's 62 as shown in
As also shown in
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In use, the user installs the illumination device 10 on the pole 100 in the manner previously described and optionally at a height that is out of the reach of people who happen to pass by the pole 100. The user rotates the solar panels 90 to ensure maximum exposure to the sun. In one of the preferred embodiments the pole 100 is embodied as a flagpole 101. In such an embodiment the user also rotates the lighting units 56 to ensure the rays of light 200 (
In another preferred embodiment of the illumination device 10 the pole mount 14 is connected to four light supports 40 and the light supports 40 are spaced an equal distance from one another about the pole mount 14.
In another preferred embodiment of the illumination device 10 the pole mount 14 is connected to two light supports 40 that are spaced an equal distance from one another. That is, the light supports 40 extend in diametrically opposite directions from the pole mount 14.
In another preferred embodiment of the illumination device 10 there are three light supports 40 that are spaced equal distances from one another.
In another preferred embodiment the pole mount 10 and the light supports 40 can be formed of molded plastic such that the pole mount 10 and light supports 40 are in the form of as one-piece body. In this embodiment the need for the above-described bolt 36 and nut 50 is eliminated.
In another preferred embodiment the illumination device 10 is sold as a kit that may include a pole 100 or flagpole 101. The pole mount 14 may be made without the first and second gap edges 24, 26, that is, without the gap space 27, because the diameter of the pole 10 is known in advance. The first strip of fabric 28a having hooks 28 and the second strip of fabric 30a having loop portion 30b having loops 30 is provided for on the pole mount 14 as previously described, and they are used to compress the pole mount 14 on the flagpole 101.
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The insert 338 thus allows the pole mount clamp 300 to be used with in connection with poles 100 having diameters of less than four inches, for example three inches, two and a half inches and two inches. Indeed, the insert 338 can be formed in various sizes such that the pole mount clamp 300 can accommodate virtually any pole 100 having a diameter of less than four inches. In other preferred embodiments the pole mount clamp 300 has an internal diameter greater than four inches.
As shown in
The light emitting assembly 360 also includes a light emitting diode component 366. A wire 85 connects the rechargeable battery pack 362 to the light emitting diode component 366, and the light emitting diode component 366 has eight (8) LED's 62. The number of LED's 62 may be varied.
As shown in
The light emitting diode component 366 has an outer housing 378, and disposed internal to the outer housing 378 is a LED housing 380 that includes a lens 382, as shown in
As shown in
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In another preferred embodiment shown in
In another preferred embodiment shown in
In another preferred embodiment there is a spike supported illumination device 599 shown in
As shown in
To elevate the light emitting assembly 360 even higher a connector member 670 is provided and is shown in
The use of the above-described extension member 620 and connector member 670 is not limited solely to use in connection with the ground spike 602. In particular, as shown in
In addition, the illumination apparatus 298, the supported illumination device 499, and the spike supported illumination device 599 can be sold as kits.
It will be appreciated by those skilled in the art that while the illumination device 10, the illumination apparatus 298, the supported illumination device 499 and the spike supported illumination device 599 have been described in detail herein, the invention is not necessarily so limited and other examples, embodiments, uses, modifications, and departures from the embodiments, examples, uses, and modifications may be made without departing from the illumination device 10, the illumination apparatus 298, the supported illumination device 499 and the spike supported illumination device 599, and all such embodiments are intended to be within the scope and spirit of the appended claims.
Claims
1. An illumination apparatus comprising
- a pole mount clamp having a first clamp half and a second clamp half;
- a hinge that joins the first clamp half and the second clamp half together and wherein the first clamp half and the second clamp half are movable from an open clamp position to a closed clamp position and when in the closed clamp position the pole mount clamp defines a pole opening;
- a first light support that extends from the first clamp half and wherein the first light support defines a first light support recess;
- a light emitting assembly supported by the first light support and wherein the light emitting assembly includes: a battery pack housing that supports a solar panel and the battery pack housing having a rechargeable battery pack disposed therein and wherein a pair of panel lugs extend from the battery pack housing, a light emitting diode component having a light emitting diode lug and wherein the light emitting diode lug is disposed between the pair of panel lugs and an adjustment bolt extends through the pair of panel lugs and through the light emitting diode lug such that the solar panel can be adjusted relative to the light emitting diode component prior to tightening the adjustment bolt, and the light emitting diode component having an outer housing with a housing arm that extends from the outer housing and wherein the housing arm defines a bolt opening and has a first toothed portion having first teeth; an arm insert having a second toothed portion having second teeth and the second toothed portion defines a bolt opening and a bolt is provided and a nut is disposed in the arm insert, and wherein the first and second teeth are sized such they are capable of meshing together and wherein housing arm and the arm insert are adjustable relative to one another, and the housing arm and the arm insert are secured to one another when the first and second teeth are meshed and the bolt is extended through bolt opening in the housing arm and the bolt opening in the arm insert and threaded to the nut and tightened; and
- the arm insert is disposed in the first light support recess and the light emitting assembly extends from the pole mount clamp, and the battery pack housing supporting the solar panel is bolted to and adjustable relative to the light emitting diode component by way of the adjustment bolt, and the light emitting diode component is bolted to and adjustable relative to the arm insert by way of the bolt.
2. The illumination apparatus according to claim 1 wherein the pole mount clamp has a second light support that extends from the second clamp half and has a third light support that extends from the second clamp half and wherein the first, second, and third light supports are equal distances from one another.
3. The illumination apparatus according to claim 1 wherein the first clamp half has a first clamp half internal surface, and the second clamp half has a second clamp half internal surface, and each of the first and second clamp half internal surfaces is concave.
4. The illumination apparatus according to claim 2 wherein the first clamp half has a first clamping lug that defines a first lug opening and the second clamp half has a second clamping lug that defines a second lug opening, and wherein when the pole mount clamp is in the closed clamp position the first and second clamping lugs abut one another and the first and second lug openings are aligned with one another, and a fastener is disposed in and aligned in the first and second lug openings to hold the first and second clamp lugs together.
5. The illumination apparatus according to claim 4 wherein the first clamp half is formed as a one piece body and the second clamp half is formed as a one piece body.
6. The illumination apparatus according to claim 5 further including an insert and wherein when the pole mount clamp is in the closed clamp position it defines a pole opening and the insert is disposed such that it abuts and contacts both a pole and the pole mount clamp such that poles of different diameters are capable of being used with the pole mount clamp.
7. The illumination apparatus according to claim 1 wherein the solar panel is for providing electrical power to the rechargeable battery pack.
8. The illumination apparatus according to claim 7 wherein the light emitting diode component has at least one light emitting diode capable of being powered by the rechargeable battery pack.
9. The illumination apparatus according to claim 1 further including at least one clamp fastener that extends through the arm insert and the first light support to hold and secure the arm insert and the first light support together.
10. A supported illumination assembly comprising:
- a light emitting assembly having: a battery pack housing that supports a solar panel and the battery pack housing having a rechargeable battery pack disposed therein and wherein a pair of panel lugs extend from the battery pack housing, a light emitting diode component having a light emitting diode lug and wherein the light emitting diode lug is disposed between the pair of panel lugs and an adjustment bolt extends through the pair of panel lugs and through the light emitting diode lug such that the solar panel can be adjusted relative to the light emitting diode component prior to tightening the adjustment bolt, and the light emitting diode component having an outer housing with a housing arm that extends from the outer housing and wherein the housing arm defines a bolt opening and has a first toothed portion having first teeth; and, an arm mount having a base portion that defines arm mount openings with an arm portion extending from the base portion, and the arm portion has an arm toothed portion that defines an arm bolt opening and has arm teeth and wherein when the arm teeth intermesh with the first teeth of the first toothed portion a bolt is extended through the arm bolt opening and the bolt opening in the housing arm holds the meshed first teeth and arm teeth together and the housing arm and the arm mount are adjustable relative to one another and wherein the base portion is capable of being connected to a surface with screws that extend through the arm mount openings and into the surface; and,
- the battery pack housing supporting the solar panel is bolted to and adjustable relative to the light emitting diode component by way of the adjustment bolt, and the light emitting diode component is bolted to and adjustable relative to the arm mount by way of the bolt.
11. A method of lighting with an illumination apparatus comprising the acts of:
- providing a pole mount clamp having a first clamp half and a second clamp half;
- providing a hinge that joins the first half and the second clamp half together and wherein the first clamp half and the second clamp half are movable toward and away from one another to an open clamp position and to a closed clamp position;
- providing a first light support and extending the first light support from the first clamp half and defining a first light support recess in the first light support;
- providing a light emitting assembly and supporting the first emitting assembly with the first light support and providing the light emitting assembly with: a battery pack housing that supports a solar panel and disposing a rechargeable battery pack in the battery pack housing and extending a pair of panel lugs from the battery pack housing, a light emitting diode component having a light emitting diode lug and wherein and disposing the light emitting diode lug between the pair of panel lugs, and providing an adjustment bolt and extending the adjustment bolt through the pair of panel lugs and through the light emitting diode lug such that the solar panel can be adjusted relative to the light emitting diode component prior to tightening the adjustment bolt, and providing the light emitting diode component with an outer housing and extending a housing arm from the outer housing and defining a bolt opening in the housing arm and providing the housing arm with a first toothed portion having first teeth; an arm insert having a second toothed portion and providing the second toothed portion with second teeth and defining a bolt opening in the second toothed portion, and providing a bolt and bolt and the nut is disposed in the the arm insert, and wherein the first and second teeth are sized such they are capable of meshing together and wherein housing arm and the arm insert are adjustable relative to one another, and securing the housing arm and the arm insert when the first and second teeth are meshed and the bolt is extended through bolt opening in the housing arm and the bolt opening in the arm insert and the bolt is threaded to the nut and tightened; and,
- moving the arm insert into the first light support recess allowing the light emitting assembly to extend from the pole mount clamp, and adjusting the battery pack housing supporting the solar panel relative to the light emitting diode component and adjusting the light emitting diode component relative to the arm insert by loosening and tightening the adjustment bolt and the bolt.
12. The method according to claim 11 further including the step of providing the pole mount clamp with a second light support that extends from the second clamp half and a third light support that extends from the second clamp half and wherein the first, second and third light supports are equidistant from one another, and providing the first clamp half with a first clamp half internal surface, and providing the second clamp half with a second clamp half internal surface, and forming each of the first and second clamp half internal surfaces to be concave.
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Type: Grant
Filed: Jul 12, 2013
Date of Patent: Dec 20, 2016
Patent Publication Number: 20140016309
Inventor: Gary L. Toner (Lancaster, NY)
Primary Examiner: Jong-Suk (James) Lee
Assistant Examiner: William N Harris
Application Number: 13/940,878
International Classification: F21L 4/00 (20060101); F21L 13/00 (20060101); F21V 21/00 (20060101); F21V 21/08 (20060101); F21S 8/00 (20060101); F21S 13/10 (20060101); F21V 21/088 (20060101); F21L 4/08 (20060101); F21V 33/00 (20060101); F21V 21/116 (20060101); G09F 17/00 (20060101); G09F 13/02 (20060101); E04H 12/32 (20060101); F21S 8/08 (20060101); F21S 9/03 (20060101); F21V 17/02 (20060101); F21V 21/30 (20060101); F21W 131/10 (20060101); F21W 131/103 (20060101); F21Y 101/00 (20160101);